Swimming waterfowl decoy with spray

ABSTRACT

A movable waterfowl decoy includes: (a) a decoy body portion including a buoyant decoy body and a head portion attached to an upper front portion of the decoy body, the buoyant decoy body including at least one body compartment, the body compartment including at least one closeable compartment opening; (b) a power source housed in the at least one body compartment; (c) a spray propulsion system that is substantially housed within the at least one body compartment; (d) a keel attached to a lower surface of the buoyant decoy body; and (e) a remote control system, a remote receiver of which is within the at least one body compartment; wherein the decoy body portion emits an above-water spray of water from a body of water in a generally rearward direction when the waterfowl decoy is in use, which propels the decoy body portion in the body of water. Alternatively, the power source is outside and remote from the decoy body portion, and connected to the spray propulsion system, with a power cable connecting the decoy body portion to the remote power source.

CROSS REFERENCE TO RELATED DOCUMENTS

This is a divisional of U.S. patent application Ser. No. 11/647,643,which was filed in the US Patent & Trademark Office on Dec. 29, 2006, asamended. This invention was described in Disclosure Document Number599487, which was received by the US Patent & Trademark Office on Apr.25, 2006.

BACKGROUND OF THE INVENTION

1. Technical Field

The present invention relates to a self-propelled waterfowl decoy withan above-water spray that simulates splashing and swimming movements ofwild waterfowl on the surface of a body of water.

2. Background Information

The duck hunter is above all a naturalist. Most duck and Canadian geesehunters are rapt observers of avian behavior, especially during earlymorning hours spent peering out from a duck blind. Though many currentlyavailable waterfowl decoys attract wild fowl to a degree, they fall farshort of imitating nature.

Some older mechanized duck decoys attempt to simulate the swimmingactions of live ducks by moving straight ahead in the water. Such adecoy soon arrives on the opposite bank of the body of water,necessitating “rescue” by the hunter. The hunter must decide whether tocontaminate the otherwise peaceful scene by walking up to the bank,turning the decoy back towards the open water, and leaving the bank,whereupon the duck decoy soon arrives at the opposite bank, and soforth.

Though it can also move straight ahead on the water's surface, thewaterfowl decoy of the present invention simulates the more randomswimming movements of live waterfowl by generating a water spray fromthe waterfowl decoy and by moving forward randomly to one side or theother, as well as straight ahead. The present decoy attempts toreplicate the tendency of live waterfowl to splash and generate movementin the water in addition to a generally forward “swimming” movement. Theabove-water spray of the present decoy shoots water droplets in the air.The water droplets reflect sunlight in interesting patterns. By moreclosely imitating nature, the waterfowl decoy of the present inventionattracts greater numbers of wild waterfowl to the area in which it is inuse.

BRIEF SUMMARY OF THE INVENTION

The present invention is a floating waterfowl decoy with a spraypropulsion system that simulates the splashing and swimming movements oflive fowl. The waterfowl decoy of the present invention comprises:

-   -   (a) a decoy body portion comprising a buoyant decoy body and a        head portion attached to an upper front portion of the decoy        body, the buoyant decoy body comprising at least one body        compartment, the body compartment comprising at least one        closeable compartment opening;    -   (b) a power source housed in the at least one body compartment;    -   (c) a spray propulsion system that is substantially housed        within the at least one body compartment;    -   (d) a keel attached to a lower surface of the buoyant decoy        body; and    -   (e) a remote control system, a remote receiver of which is        within the at least one body compartment;

wherein the decoy body portion emits an above-water spray of water froma body of water in a generally rearward direction when the waterfowldecoy is in use, which propels the decoy body portion in the body ofwater. Alternatively, the power source is outside and remote from thedecoy body portion, and connected to the spray propulsion system, with apower cable connecting the decoy body portion to the remote powersource.

The self-propelled waterfowl decoy with an above-water spray of thepresent invention sports important features that attract wild waterfowl,including: 1) Interesting “swimming” movements in the water; 2) Waterdisturbance by the waterfowl decoy; 3) Reflection of sunlight from thewater disturbance.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

A more complete understanding of the invention and its advantages willbe apparent from the following detailed description taken in conjunctionwith the accompanying drawings, wherein examples of the invention areshown, and wherein:

FIG. 1 is a perspective view of a waterfowl decoy according to thepresent invention;

FIG. 2 is a side elevational view of the waterfowl decoy according toFIG. 1;

FIG. 3 is a top plan view of the waterfowl decoy according to FIG. 2;

FIG. 4 is a perspective view of a waterfowl decoy according to thepresent invention, shown with back flaps up;

FIG. 5 is a side elevational view of a nozzle of the waterfowl decoyaccording to FIG. 4;

FIG. 6 is a cross-sectional view of the nozzle of the waterfowl decoyaccording to FIG. 6, taken along line 6-6;

FIG. 7 is an exploded view of a second waterfowl decoy according to thepresent invention;

FIG. 8 is a perspective view of a waterfowl decoy according to thepresent invention;

FIG. 9 is a side elevational view of the waterfowl decoy according toFIG. 8;

FIG. 10 is a top plan view of the waterfowl decoy according to FIG. 9;

FIG. 11 is a perspective view of a waterfowl decoy according to thepresent invention, shown with back flap up;

FIG. 12 is a perspective view of a waterfowl decoy according to thepresent invention, showing a movable keel; and

FIG. 13 is an exploded view of a spray propulsion system of a waterfowldecoy according to the present invention.

DETAILED DESCRIPTION OF THE INVENTION

In the following description, like reference characters designate likeor corresponding parts throughout the several views. Also, in thefollowing description, it is to be understood that such terms as“front,” “back,” “within,” and the like are words of convenience and arenot to be construed as limiting terms. Referring in more detail to thedrawings, the invention will now be described.

Turning first to FIG. 1, a swimming, splashing waterfowl decoy generallyreferred to herein as 10 comprises several basic components, or systems,including: a decoy body portion 11 with a buoyant body 16 having atleast one body compartment 21; 2) a battery 12 or other power sourcewithin or outside the decoy body 16; 3) a spray propulsion system 13 bywhich the waterfowl decoy 10 generates a water spray 36 and movesthrough the body of water 32 in which it has been placed; and 4) a keel15 attached to a lower surface of the buoyant body 16. Lastly, thewaterfowl decoy 10 includes: 5) either a remote control system 14 forcontrolling the propulsion system 13, or a power cord 40 leading from aremote battery 12 and controls separate from the decoy body portion(e.g., on the shore or in a boat) to the waterfowl decoy 10 in thewater. The spray propulsion system 13 comprises a small electrical pump25 and a spray nozzle 26. The spray propulsion system 13 generates anabove-water spray 36 using water from the body of water 32 on which thewaterfowl decoy 10 rests.

FIGS. 1-6 herein show the remote controlled waterfowl decoy 10, andFIGS. 7-12 illustrate a second waterfowl decoy 10 with a power cable 40.In the remote controlled waterfowl decoy 10, the battery 12 or otherpower source is within the body compartment 21. In the power cabledecoy, the battery 12 or other power source is outside and remote fromthe decoy body portion 11, usually on the shore (or in a nearby boat)where the hunter is.

By “swimming” is meant that the waterfowl decoy 10 is moved along thewater's surface by the spray propulsion system 13, which simulates alive waterfowl swimming on a body of water. The rearward water spray 36generated by the spray propulsion system 13 moves the waterfowl decoy 10in a generally forward, meandering “swimming” motion and createssplashing, which attracts wild waterfowl. Wild waterfowl are alsobelieved to be attracted by the reflectivity of sunlight off the spraywater droplets.

The decoy body portion 11 includes: 1) the buoyant body 16; 2) a headportion 17, which is attached to an upper front part of the decoy body16; 3) at least one movable back flap 18; 4) at least one bodycompartment 21 in a central part of the decoy body 16; and 5) at leastone swivel 20. The body compartment 21 includes a closeable compartmentopening 22, preferably at the top of the body compartment 21. Thecompartment closure may be the back flap 18, or the compartment closure39 may be separate from the back flap 18. As seen in FIG. 2, the remotecontrolled waterfowl decoy 10 includes a first, forward body compartment21 a, which holds the remote receiver box 34 and the battery 12, and asecond, aft body compartment 21 b, which supports the spray propulsionsystem 13. The substantially solid decoy body 16 is made of a buoyantmaterial, such as styrofoam or cork, so that it floats on the body ofwater.

In the first, remote controlled waterfowl decoy 10 shown in FIGS. 1-6, aremote control 35 of the remote control system 14 is in the possessionof the nearby hunter. When the waterfowl decoy 10 is in use, the hunteris normally some distance away but still within view of the decoy bodyportion 11 in the water. The remote control 35 includes on/off levers orbuttons 33 for turning the remote control system 14 on and off. Thehunter can create random swimming and splashing patterns by turning thesystem on, which moves the decoy forward, and turning the system off,permitting the decoy to bob in the water. This on/off pattern can thenbe repeated, which generates interesting decoy movement patterns.

The back flaps 18 of both the remote control and power cable decoys 10are movable between a closed position over the compartment opening 22(as seen in FIG. 9), and an open position apart from the compartmentopening 22 (see FIG. 11). The flexible back flap 18 provides easy accessto internal components in the compartment 21 below the back flap. Theback flaps 18 also prevent rain and water from entering the battery 12and the compartments 21. The remote control waterfowl decoy 10 has twoback flaps 18, as seen in FIG. 1, and the power cable decoy has one backflap 18 (see FIG. 8).

As seen in FIGS. 1-4, the second, aft back flap 18 b is at the rear ofthe waterfowl decoy 10 on its back, and the first, forward back flap 18a is in front of the second back flap 18 b on the decoy's back behindits head portion 17. Each back flap 18 is attached at its front end tothe upper surface of the decoy body 16. The back flaps 18 are made of aflexible, water-resistant material, such as rubber. The back flaps 18are preferably concave and made of a flexible yet rigid enough materialto be lifted up and bent back by the hunter into the open position foraccess to the compartments 21. The concave shape is advantageous in thatit permits the back flaps 18 to remain in the open position until theyare released by hand to the closed, steady state position over thecompartment opening 22. Also, the hump formed by the top of the concaveshape of the forward back flap 18 a resembles the humped back of a liveduck or other waterfowl. The concavity also extends the two oppositesides of the back flaps 18 over the corresponding opposite sides of thecompartment opening 22, which helps deter water from entering thecompartments. As seen in FIG. 4, the first back flap 18 a is preferablysubstantially wider and longer than the second back flap 18 b, which ispointed at its rear, to more closely resemble the back feathers of awaterfowl. Even in the closed position as shown in FIG. 2, the pointedrear tip of the second back flap 18 b extends up over but does notcontact the spray nozzle 26. This position permits it to conceal but notinterfere with spray from the nozzle 26.

As seen in FIG. 4, a first swivel 20 a preferably connects the decoyhead portion 17 to the buoyant body 16, so that the decoy head portionis swivelable. Arbitrary movement of the decoy 10 as it swims along,perhaps bumping into debris or rocks, or being rocked by ripples in thebody of water, will on occasion rock the separate decoy head portion 17,causing it to swivel on the first swivel 20 a. This simulates movementof the head of a live fowl and therefore adds to the attractiveness ofthe waterfowl decoy 10. Alternatively, a metal bolt may be used toattach the decoy head portion 17 to the body 6, in which case the headportion 17 is stationary. As seen in FIGS. 1 and 7, the decoy headportion 17 includes the head and neck area, a beak 23, and eye markings24 on opposite sides of the head. The head portion 17, decoy body 16,and back flaps 18 are preferably colored and shaped to imitate thespecies specific markings of a particular waterfowl species, as desired.

As shown in FIGS. 2, 7, and 13, the spray propulsion system 13 includes:a small water pump 25 and a spray nozzle 26 in the decoy 10. The spraynozzle 26 is at the rear of the decoy's back, as seen in the figures. Anelectrical wire 30 connects the pump 25 to the battery 12 in either theforward compartment (first, remote controlled decoy) or through thepower cable to the remote battery (second, power cable decoy).

The aft compartment 21 b is preferably generally cone-shaped in order tosupport the generally cylindrical or cone-shaped pump 25 without thepump slipping down and out of the decoy body 16 through a hole 44 in thebottom of the body compartment 21 b. The decoy body 16 is made of awater-resistant, buoyant material, such as styrofoam or cork, so that itfloats in the water regardless of the bottom compartment hole 44. Theaft compartment 21 b is shaped so that it closely accommodates the pump25.

As seen in FIG. 13, an L-shaped nozzle arm 27 extends from an outlet 48on an upper portion of the pump 25. As shown in FIG. 2, the aftcompartment 21 b includes a shallower, aft arm supporting portion 21 cfor supporting the nozzle arm 27. The spray nozzle 26 fits closely overthe top of the nozzle arm 27 (see FIG. 13). The nozzle 26 and nozzle arm27 are made of a durable, water-resistant material, such as polyvinylchloride (PVC). The pump 25 is preferably a 12 volt electric pump. Thespray nozzle 26 includes an arched spray slot 43 on the side of thenozzle facing the rear of the decoy, as illustrated in FIGS. 4-6. Thespray nozzle 26 is positioned at the top back of the decoy 10 pointingrearward. The spray nozzle slot 43 is large enough so that it isunlikely to be clogged by debris from the pond or other body of water.

Continuing with FIG. 13, the pump 25 in each decoy variation supports atleast one filter 28, and preferably two horizontally oriented filters,at the base of the pump 25 for filtering the incoming water from thebody of water. The filters 28 are important because they prevent thepump 25 from being fouled by algae and other detritus commonly found ina pond, lake, or other body of water where live waterfowl can be found.The first, uppermost filter 28 a is held in place by a coupling 29 thatfits over the base of the filter. The pump coupling 29, which can bescrewed onto the base of the pump 25 (also see FIG. 12), is preferablyremovable so that the filter 28 can be cleaned or replaced as needed.The second, lower filter 28 b, which is preferably the same size andmaterial as the first, filter 28 a, fits into a base of the filtercoupling 29. It is held in place by a generally ring-shaped collar 46.The filters 28 are preferably circular-shaped and made of awater-resistant nylon mesh netting. The dual filter system does notallow particulate matter in the water to enter the pump 25. The filter28 b and pump coupling 29 include centrally located holes 50 throughwhich a shaft of a screw 49 passes. The screw 49 holds the pump filters28 in place. As seen in FIG. 2, a wing nut 42 may be used instead of thescrew 49. A stabilizer fork 47 is preferably placed between the head ofthe screw 49 and the pump collar 46 to further stabilize the second,outer filter 28 b. The pump collar 46, stabilizer fork 47, and screw 49are also preferably removable so that one or both filters 28 can berinsed off or removed and cleaned or replaced as needed.

When the waterfowl decoy 10 (either of the two variations) is in use,water from the body of water 32 in which the decoy is floating is takenin through the bottom compartment hole 44 by action of the pump 25. Thewater is sucked through the pump 25, which includes an intake impeller51 positioned in the decoy 10 so that it is below the waterline. Whenthe pump 25 is on, the generally horizontal intake impeller 51 in thepump is rotating. The water is pumped out through the nozzle arm 27 andsprayed out through the spray nozzle 26. The spray nozzle slot 43 isarched and sized so that the water spray 36 is made of large sizedroplets 37. The spray 36, which is lofty and sparkles in the sunlight,splashes on the back of the waterfowl decoy 10 and on the surroundingwater. The large size droplets 37 make noise when they land on the waterand on the back of the decoy body. The spray 36 from the decoy 10simulates the spray of water that a busy live duck or other waterfowlmight kick up on the water's surface. The force of the spray 36 from therear of the decoy drives the decoy 10 in a generally forward direction.The waterfowl decoy 10 is thereby propelled in a generally forward,left, or right direction.

Importantly, the spray nozzle slot 43 is formed and directed so that thestream of liquid exiting the spray nozzle 26 is sprayed in an upward,rearward direction (in both variations; see FIGS. 1 and 8). This directsthe waterfowl decoy 10 in a generally forward direction, and creates acurtain of water that can be seen by airborne waterfowl. Airborne wildwaterfowl are attracted to the water spray from, and movement of, thewaterfowl decoy 10. In particular, the spray 36 of water from the decoyspray nozzle 26 has been found to attract flying ducks from greatdistances. A flock of real ducks in the water will create ripples andsmall sprays of water here and there, even on a morning when the wateris quite still. The water surrounding the live ducks sparkles fromsunlight striking the ripples. The waterfowl decoy 10, which can beplaced in a group of standard, hollow body duck decoys, creates asimilar impression. The water spray 36 is emitted from the waterfowldecoy 10 above the waterline of the body of water on which the decoy isfloating. The spray nozzle 26 is preferably oriented so that the spray36 from the arched nozzle slot 43 is directed at an angle of betweenabout 40 and about 50 degrees relative to the generally horizontal levelof the water surface beneath the waterfowl decoy 10 when the decoy is inuse. If the spray instead rose straight up from the decoy body portion,the decoy would likely rock back and forth rather than moving forward.

Preferably, the nozzle 26 is generally cylindrical and between about 0.8and about 1.2 inch in diameter, and the nozzle slot length is aboutequal to the diameter of the nozzle. Most preferably, the nozzle isabout one inch in diameter, and the arched nozzle slot 43 is about 0.8inch in length and about 0.2 inch wide, with a relatively even widthalong the length of the slot, for a directed spray.

The waterfowl decoy 10 is quiet. The sound of the pump 25 in the decoy10 is not loud enough to scare away live waterfowl attracted to it.Preferably, the only moving part when the waterfowl decoy 10 is in useis the quiet intake impeller 51 on the water pump. If necessary, a newmotor can easily be inserted in the generally cylindrical, slightlyconical pump 25. The only moving part (the impeller) is below waterlevel, so it will not freeze up during extreme weather conditions.

The battery 12 and its wiring can easily be removed from the decoy bodycompartment 21, if desired. Recharging can be conducted with the battery12 still in the waterfowl decoy 10. Alternatively, the battery 12 can beremoved from the decoy body portion 11 for charging, if desired. Asecond battery can easily be utilized if it is needed for more runningtime on extended outings.

As seen in the waterfowl decoy 10 of FIGS. 1-6, the remote controlsystem 14 includes: 1) a remote receiver box 34 within the bodycompartment 21, as seen in FIGS. 1 and 2; 2) an antenna 38; and 3) aremote control transmitter 35 with an off/on receiver and toggleswitches 33 (see FIG. 1). When the “on” button or toggle switch 33 onthe remote control 35 is moved, the remote receiver 34 receives thesignal via the antenna 38 and the relay cuts on. Electricity from thebattery 12 flows to the pump 25. Water taken in through the pump 25 issprayed out through the spray nozzle 26. Both the battery 12 and theremote receiver 34 are removable from the decoy body portion 11, in casethe user chooses to operate the decoy with an external battery. Thebattery 12 and remote receiver 34 may be left in the decoy 10 duringstorage, if desired.

The remote control system 13 includes the antenna 38, which extends outalong the decoy's back from the remote receiver box 34. The antenna 38preferably passes beneath the first, forward back flap 18 a. From there,the antenna 38 extends along the top of the second, aft back flap 18 balong the midline of the aft back flap and out over the pointed tip ofthe aft back flap. The antenna 38 extends slightly beyond the tip of thesecond back flap 18 b, as seen in FIG. 4, but does not extend into thespray stream from the nozzle.

In the power cable waterfowl decoy 10 shown in FIGS. 7-12, an externalpower source in the vicinity of the decoy body portion 11, such as a 12volt battery 12 in a blind, watercraft, or the like. Here, the decoybody portion 11 only has one body compartment 21, since no compartmentis needed for holding a small battery or a remote receiver. One backflap 18 covers the compartment opening 22. The back flap 18 ispreferably concave and flexible, so that it has a realistic hump shapewhen closed as seen in FIG. 8, and can be lifted into an open positionas shown in FIG. 11 for access to the body compartment 21. Once it isbent into the open position, the back flap 18 stays open until it isbent back into the closed position covering the compartment opening 22.

In the waterfowl decoy 10 shown in FIGS. 7-12, the power cable 40includes an electrical wire 30 extending through a protective,water-resistant, flexible, hollow tubing. The power cable 40 extendsbetween the remote battery 12 and controls (usually positioned on-shore)and the electrical water pump 25 in the decoy body portion 11. Thecontrol (which resembles the control 35 with buttons 33 in FIG. 1)includes off/on switches, which are controlled by the user. The usermanipulates the off/on switch(es) to cause the water spray 36 to beemitted in short, intermittent bursts. This causes realistic movement ofthe waterfowl decoy 10 (as described herein). As seen in FIGS. 9 and 12,the power cable 40 extends under the decoy body portion 11 and upthrough a power cable hole 52 in the decoy body portion 11. The end ofthe power cable 40 is connected to the top of the pump 25.

As seen in the figures, the waterfowl decoy 10 (both variations) alsoincludes a keel 15 to balance the decoy 10 and direct its movements. Itis attached to the bottom of the decoy 10. The generally rectangularkeel 15 extends along the longitudinal axis of the decoy 10. The keel 15helps to keep the decoy body portion 11 aligned.

The keel 15 is preferably an extended, stationary metal keel as seen inFIG. 1. The extended metal keel 15 balances the decoy body portion 11,so that it rides the water like a duck or other live waterfowl. As seenin FIG. 2, the keel 15 preferably extends down into the water at anangle between about 40 and about 50 degrees for increased stability andto leave room for the pump wing nut 42 and the user's fingers. The pumpwing nut 42 is accessible to the user, in case he or she wishes to pullthe decoy body portion 11 out of the water and clean or change the pumpfilter(s) 28. As seen in FIGS. 2 and 7, the keel 15 is preferablyattached by keel screws 55 or the like to a front keel piece 56, whichfits into a keel slot 57 in the front of the keel 15. The front keelpiece 56 is attached to the bottom front of the buoyant body 16.

Referring to FIG. 12, the decoy 10 optionally includes a movable keelend portion 53 that is attached by a hinge 54 to the remainder of thekeel 15 at the free end of the keel. The hunter has the option ofturning the keel end portion 53 to the left or right before putting thedecoy body portion 11 in the water if the hunter wants the decoy bodyportion 11 to gradually turn in a circle or gyre when the pump is on. Ifit is loose instead, the hinged keel end portion 53 moves arbitrarily asthe decoy body portion 11 and the surrounding water move, addinginteresting, realistic movements as the decoy “swims”. A line (notshown) can optionally be attached to the movable keel end portion 53 forthe hunter to manipulate.

Optional secondary components of the waterfowl decoy 10 (eithervariation) include: 1) one or more additional swivels 20 connected tothe decoy body portion 11; and optionally 2) a line 45 attached to theswivel 20. In addition to the first, head swivel 20 a, the decoy 10 mayinclude a second swivel 20 b or loop attached to a front end of thedecoy body portion 11 at the bottom of the decoy body portion (see FIG.3). One end of a line 45, which may be a string, wire, or cord, isattached to the second swivel 20 b for the hunter to pull, if desired.As seen in FIGS. 1, 2, 4, and 7, a third swivel 20 c or loop under theback, lower end of the decoy body portion may be attached to a line 45,which may be a string, wire, or cord. The line 45 attached to the thirdswivel 20 c can be used as a jerk string to assist the user/hunter incontrolling the swimming direction of the decoy body portion 11. Theline 45 may extend to a fourth swivel 20 d/loop on the decoy bodyportion 11 (see FIG. 9). In the power cable decoy 10, the power cable40/electrical wire 30 extending from the remote battery 12 can be usedas a jerk string.

The waterfowl decoy 10 may also include an anchor attached to anopposite end of a line 45. The anchor holds the decoy body portion 11 ina relatively stationary position on the body of water. When the decoybody portion 11 reaches the end of the anchor line, the decoy bodyportion turns in a circle.

The opposite end of a line attached to a swivel or loop can also beattached to a slave decoy, with a number of slave decoys in line behindthe waterfowl decoy 10. Seeing a string of what appear to be ducksswimming on a body of water is attractive to ducks and certain livewaterfowl, which tend to swim along behind one another. In this manner,a front one of the waterfowl decoys 10 can pull a number ofnon-motorized waterfowl decoys behind it. The decoy is powerful enoughfor a number of slave decoys to be tethered to it. The waterfowl decoy10 adds realism to an entire decoy spread. The decoy 10 creates ripplesthroughout the decoy spread. This decoy arrangement provides a life-likeappearance to live waterfowl viewing the decoy spread from the air.

The waterfowl decoy 10 does not require assembly or disassembly, and iseasy to store and transport. It is only necessary to connect theelectrical wires if one is using the external source of power (e.g.,on-shore battery 12). The decoy can be used in conjunction with anchors,stakes, slave decoys, etc.

From the foregoing it can be realized that the described device of thepresent invention may be easily and conveniently utilized as aself-propelled waterfowl decoy for attracting waterfowl game. It is tobe understood that any dimensions given herein are illustrative, and arenot meant to be limiting.

While preferred embodiments of the invention have been described usingspecific terms, this description is for illustrative purposes only. Itwill be apparent to those of ordinary skill in the art that variousmodifications, substitutions, omissions, and changes may be made withoutdeparting from the spirit or scope of the invention, and that such areintended to be within the scope of the present invention as defined bythe following claims. It is intended that the doctrine of equivalents berelied upon to determine the fair scope of these claims in connectionwith any other person's product which fall outside the literal wordingof these claims, but which in reality do not materially depart from thisinvention. Without further analysis, the foregoing will so fully revealthe gist of the present invention that others can, by applying currentknowledge, readily adapt it for various applications without omittingfeatures that, from the standpoint of prior art, fairly constituteessential characteristics of the generic or specific aspects of thisinvention.

1. A swimming, spraying waterfowl decoy, comprising: (a) a decoy bodyportion comprising a buoyant decoy body and a head portion attached toan upper front portion of the decoy body, the buoyant decoy bodycomprising at least one body compartment, the at least one bodycompartment comprising at least one closeable compartment opening; (b) apower source housed in the at least one body compartment; (c) a spraypropulsion system comprising a pump that is substantially housed withinthe at least one body compartment, a nozzle arm extending from the pump,and a spray nozzle at an upper end of the nozzle arm, the spray nozzlebeing in fluid communication with the pump and the nozzle arm, an upperportion of the spray nozzle being above a top rear surface of the decoybody; (d) a keel attached to a lower surface of the buoyant decoy body;and (e) at least one back flap connected at one end of the at least oneback flap to a top rear surface of the decoy body, the at least one backflap being movable between an open position away from the at least onebody compartment, and a closed, steady state position wherein asubstantial portion of the at least one back flap rests on the top rearsurface of the decoy body and extends over the at least one bodycompartment; wherein the decoy body portion emits an above-water sprayof water from a body of water substantially upward and behind thewaterfowl decoy when the waterfowl decoy is in use, which propels thedecoy body portion in the body of water; and wherein a longitudinal axisof the spray nozzle intersects a rearward portion of the at least oneback flap when the at least one back flap is in the closed, steady stateposition.
 2. The waterfowl decoy according to claim 1, wherein a firstswivel connects the decoy head portion and the buoyant decoy body, sothat the decoy head portion is swivelable.
 3. The waterfowl decoyaccording to claim 1, further comprising (f) a remote control system, aremote receiver of which is within the at least one body compartment. 4.The waterfowl decoy according to claim 1, wherein the at least onecompartment opening is covered by the at least one back flap the atleast one back flap being movable between a the closed position over theat least one compartment opening and the open position apart from the atleast one compartment opening.
 5. The waterfowl decoy according to claim3, comprising a first, forward one of the at least one bodycompartments, which holds a remote receiver box and the battery, and asecond, aft one of the at least one body compartments, which supports atleast a portion of the spray propulsion system.
 6. The waterfowl decoyaccording to claim 5, wherein a compartment closure of the at least onebody compartment is the at least one back flap, the at least one backflap being pointed at its rear.
 7. The waterfowl decoy according toclaim 1, wherein the decoy body portion comprises two of the at leastone body compartments in the buoyant decoy body, of which one is aforward body compartment and one is a generally cone-shaped aft bodycompartment.
 8. The waterfowl decoy according to claim 1, wherein thehead portion is attached to the decoy body by a metal bolt.
 9. Thewaterfowl decoy according to claim 1, further comprising a movable keelend portion attached to the keel by a hinge.
 10. The waterfowl decoyaccording to claim 3, wherein the remote control system furthercomprises an antenna and a remote control transmitter.
 11. The waterfowldecoy according to claim 3, wherein the power source is a battery. 12.The waterfowl decoy according to claim 1, wherein a rear tip of the atleast one back flap extends over the spray nozzle of the spraypropulsion system without interfering with a spray emitted from thespray nozzle when the at least one back flap is in the closed, steadystate position.
 13. The waterfowl decoy according to claim 1, whereinthe spray nozzle comprises an arch-shaped spray nozzle slot facing arear of the decoy, the arch-shaped spray nozzle slot bisecting a topsurface of the spray nozzle.
 14. The waterfowl decoy according to claim13, wherein the nozzle arm is L-shaped and extends from an outlet on anupper portion of the pump, the entire spray nozzle being generallycylindrical in shape.
 15. The waterfowl decoy according to claim 14,wherein the pump fits closely within the at least one body compartment,the decoy body comprising only one of the at least one bodycompartments, the pump comprising two horizontally oriented, waterresistant filters, with a first one of the two horizontally oriented,water resistant filters above a second one of the two horizontallyoriented, water resistant filters in the pump.
 16. The waterfowl decoyaccording to claim 11, wherein the above-water spray is directed at anangle of between about 40 and about 50 degrees relative to the waterfowldecoy in a generally horizontal position while the pump is on and thewaterfowl decoy is in use, the spray nozzle being generally cylindricalin shape and comprising an arch-shaped spray nozzle slot, the spraynozzle slot length being about equal to a diameter of the generallycylindrical spray nozzle.
 17. The waterfowl decoy according to claim 11,wherein the pump further comprises an intake impeller, the impellerbeing below water level and being the only moving component of thewaterfowl decoy, the waterfowl decoy being propellerless.